DE559398C - Closure for accumulator cells with a pull-off device - Google Patents

Description

The invention relates to electrical accumulators. It is known that in the usually with liquid-filled accumulator cells when using the accumulator Gases arise. It has therefore already been proposed to attach drain connections to the cells through which the resulting Gases can escape. The purpose of the present invention is now to design the exhaust for the gases and to arrange that the gases can easily escape, however, an escape of the liquid even if the cell is exposed to strong fluctuations, the one is prevented Result in splashing of the liquid inside the cell. The invention exists mainly in the fact that on the closure or plug of the accumulator a withdrawal device is provided which consists of a number of plies or layers a substance impermeable to the electrolyte, with the gases between the individual layers or layers, similar to a filter that works with its edges, can pass through. The extraction device preferably consists of a number closely spaced parallel plates or one or more in the form of a tight spiral wound strips or a number of concentric rings. The one with Withdrawal device provided closure or closure plug can be used as a cover serve for the cell or be releasably connected to the cover of the cell. In the last mentioned The case, the stopper can also serve to close the fill or refill opening for the electrolyte. There are already closures for accumulators known in which the gases through, with Plates provided with holes, the plane of which is perpendicular to the direction of flow of the gases is, can pass through, gas-permeable layers between the plates Lead wool, glass wool or the like. Are provided. With these known trigger devices however, there is a leakage of the liquid, especially in the case of strong fluctuations in the Accumulator cells, not prevented with sufficient certainty. One also has, already proposed a porous body made of paraffin or the like as a closure To use substance, however, this shows the disadvantage that the closure body at increased temperature due to the pressure of the gases produced in the accumulator cell is compressed so that the pores close and the gases no longer escape can. When developing the deduction

direction according to the present invention, on the other hand, it is easily possible the layers or plies of heat-resistant layers lying parallel to the direction of flow of the gases Manufacture substances so that the device remains effective even at higher temperatures.

The accompanying drawing shows some exemplary embodiments of the invention, ίο and that is

Fig. Ι a plan of a battery cell and

Fig. 2 is a section through Fig. Ι in the direction of the line AA.

Figure 3 is a vertical section through a sealing plug for a storage cell made in accordance with the invention, and Figure 4 is a plan view of another embodiment of the sealing plug. Fig. S is a section through Fig. 4 in the direction of the line BB.

Fig. 6 shows, as a further embodiment of the invention, a closure cap, seen from the underside, and Fig. 7 is a section through Fig. 6 in the direction of the line CC.

In the embodiment shown in Figs of the invention are a number of plates 1 made of celluloid or the like Fabric parallel and perpendicular in one provided on the top of the cell cover 6 right-angled housing 2 arranged close together. Between the lower edges of the Plates 1 and the top of the cover 6, a gap 21 is left free, which through a pipe 7 communicates with the interior of the cell. On the cover 6 are in As is known, two terminals 3 and 4 and a cap 5 are provided for the filler neck. The clamps 3 and 4 are connected by lines 8 to the accumulator plates located in the cell.

In the embodiment of the invention shown in Figs. 3 and 4, 9 is a with Externally threaded plug, one in communication with the interior of the cell has standing axial bore 11, at the upper end of which openings lead radially outward 12 are provided. The threaded part of the plug 9 is at its upper end by a number of annular discs 10 made of celluloid o. The like. Enclosed by a nut 20 are pressed tightly against each other. The inside diameter of the washer 12 is slightly larger than the outer thread diameter of the plug 9, so that there is a free space 22 between these parts, through the opening 12 and the bore 11 communicates with the interior of the cell.

In the further embodiment shown in Figs. 4 and 5 are a number Plates 14 in a provided on the top of a threaded plug 13 right-angled Opening used, to which a cylindrical bore 15 is connected to the bottom.

In the embodiment according to Figs. 6 and 7, 16 is an internally threaded closure cap, in which upper part one through. spoke-like arms 18 held cylindrical Pin 17 is arranged conaxially. In the annular space between the pin 17 and the wall of the threaded plug is wound in the form of a tight spiral Strips 19 made of celluloid or the like. Arranged.

The abutting surfaces of the plates or of the spiral wound tape are expediently made rough or roughened to allow the gases themselves to be extracted to enable when the plates are stacked very closely or the Tape roll is wrapped very tightly.

Claims (6)

85 claims: 1. Closure for tumor cells with an extraction device, in which a for the electrolyte impermeable Fabric is housed in separate layers or plies in such a way that the in the Cell resulting gases can pass through, characterized in that the existing of heat-resistant materials Layers or plies lie close to one another and are arranged in the flow path of the gases in such a way that the gases meet the edges of the layers or plies and pass through between them. 2. Closure according to claim 1, characterized in that characterized in that the extraction device rests against the upper edge of the cell and the terminals and the closure cap carrying the filling opening is attached. 3. Closure according to claim 1, characterized in that the trigger device on a plug that is easily detachable connected to the cover of the cell, Closure cap or the like. Is arranged. 4. Closure according to claim 1, characterized in that the trigger device consists of a number of flat rings which are placed on top of one another and pressed together are that they form a hollow cylinder that is connected to the inside of the cell. 5. Closure according to claim 1, characterized in that characterized in that the trigger device consists of a number of superposed plates which are arranged so that the gases generated in the cell have access to their edges. 6. Closure according to claim i, characterized in that the trigger device consists of one or more strips wound in a spiral shape and the cylinder thus formed is so arranged is that the gases produced in the cell gain access to one of its side surfaces to have. For this purpose ι sheet of drawings